Traffic management is crucial for reducing congestion, minimizing delays, and ensuring safety at intersections. This paper presents the design and verification of an efficient Traffic Light System using Verilog Language. The system controls traffic at a four-way intersection, considering vehicle counts, pedestrian requests, and emergency signals. The design is implemented using a Finite State Machine (FSM) approach, with a comprehensive testbench developed to validate its functionality under various scenarios. The results demonstrate the system's ability to manage traffic efficiently, respond to pedestrian crossings, and handle emergency situations, thereby improving overall traffic flow and safety. The system's adaptability and responsiveness highlight its potential for real-world applications, addressing the limitations of traditional traffic light systems. Also, Verilog HDL ensures that the system is robust, scalable, and capable of being integrated into larger traffic management frameworks.
Verilog Based Efficient Traffic Light System
23.08.2024
1502438 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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